The long-term performance in respect to moisture management within any wall assembly depends on the hygrothermal response of the wall. Critical factors in estimating the longevity of wood-frame structures include limiting the temperature range, wood moisture content, and time of exposure to conditions suitable for the onset, growth, and propagation of mold and rot to occur. The intent in constructing highly insulted wood-frame walls is evidently to reduce energy usage in buildings, but the energy savings as might accrue necessarily cannot be achieved if these walls fail prematurely due to the effects of moisture accumulation in wall cavities. Several approaches to assessing the vulnerability of wood-frame structures to deterioration have been developed in recent years, some of which suggest applying a limit-states design approach to the performance assessment of the assembly. In this paper, a limit-states design approach is described that forms the basis of a performance assessment method for wood-frame wall assemblies. The approach is based on the requirements set out in ISO 13823. The approach, developed for the Moisture Management of Exterior Wall Systems (MEWS) project, is described; in it, the relative humidity temperature index (RHT index) is used as a basis for evaluating the long-term performance of wood-frame assemblies. This index captures the duration of the coexistence of moisture and thermal conditions above a set of threshold levels for which the risk to the formation of mold growth and wood rot is unacceptably high. An example is given to illustrate the application of the approach using the RHT index when assessing the moisture management performance of a North American stucco-clad wood-frame wall assembly in relation to wood rot.
Proceedings of Thermal Performance of the Exterior Envelopes of Whole Buildings Xiii, 2016, p. 235-245
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Thermal Performance of the Exterior Envelopes of Whole Buildings XIII International Conference, 2016